CN105825653A - Wireless remote control device - Google Patents

Abstract

The embodiment of the invention provides a wireless remote control device which supplies power to a wireless receiving module, a decoding module and a relay drive module through a battery module .A remote control module sends a turn-on signal or a turn-off signal to the wireless receiving module .The wireless receiving module receives the turn-on signal or the turn-off signal and sends the turn-on signal or the turn-off signal to the decoding module .The decoding module sends a first signal to the relay drive module when receiving the turn-on signal and sends a second signal to the relay drive module when receiving the turn-off signal .The relay drive module drives a relay module to turn on or off a controlled circuit according to the first received signal or the second received signal .Compared with an existing wireless remote control device, the wireless remote control device can improve the problems that when the existing remote control device is on standby, much power consumption is still generated, and due to flickering of a lamp, the life of the lamp is dissipated easily.

Description

Wireless remote controller

Technical field

The present invention relates to the signal transmission communications field, in particular to a kind of wireless remote controller.

Background technology

During family's illumination intelligent, the remote pilot transformation more difficulty of light switch.In existing household track remodelling, lighting circuit is powered by the mode often through single live wire power getting.Single live wire power getting refers to: time standby, is that control circuit is powered by the micro-current and power supply module in circuit；When lamp is bright, by rectifier bridge power taking supply control circuit from path.

This mode of single live wire power getting, when light fixture is closed, still can produce more power consumption, cause the wasting of resources；And in standby, it some times happens that the phenomenon of light fixture flash of light, the life-span of light fixture is easily lost.

Summary of the invention

In view of this, embodiments provide a kind of wireless remote controller, when standby, still can produce more power consumption and the problem in life-span of light fixture is easily lost due to light fixture phosphere improving existing wireless remote controller.

For achieving the above object, embodiments provide a kind of wireless remote controller, including battery module, remote control module, wireless receiving module, decoder module, relay driving module and relay module, described battery module respectively with described wireless receiving module, decoder module, relay driving module is connected, described remote control module interacts with described wireless receiving module, described decoder module electrically connects with described wireless receiving module and relay driving module respectively, described relay driving module also electrically connects with described relay module, described relay module electrically connects with controlled circuit, described remote control module is used for sending Continuity signal or cut-off signals to described wireless receiving module；Described wireless receiving module is used for receiving described Continuity signal or cut-off signals, and sends described Continuity signal or cut-off signals to described decoder module；Described decoder module, for when receiving Continuity signal, sends the first signal to described relay driving module；When receiving cut-off signals, send secondary signal to described relay driving module；Described relay driving module, for when receiving described first signal, drives described relay module to turn on described controlled circuit；When receiving described secondary signal, described relay module is driven to turn off described controlled circuit.

Preferably, above-mentioned wireless remote controller, described decoder module is connected with described relay driving module by first line and the second circuit, and described first signal is described first line output high level and described second circuit output low level；Described secondary signal is described first line output low level and described second circuit output high level.

Decoder module can be connected with relay driving module by first line and the second circuit, decoder module have pre-set yard address and the data pre-set are set.After decoder module receives signal, can be compared with arranging a yard address reception code address that receive, when detecting that reception code address is mated with arranging a yard address, and when data are all consistent, corresponding data output end has output.

Such as, mate when Continuity signal arranges a yard address with first arranged in yard address, and when the data in Continuity signal and the first Data Matching in the data pre-set, the pin being connected with the described first line output high level of decoder module, and the pin being connected with the second circuit does not export.Mate when cut-off signals arranges a yard address with second arranged in yard address, and when the data in cut-off signals and the second Data Matching in the data pre-set, the pin being connected with the second circuit output high level of decoder module, the pin being connected with first line does not export.

Preferably, above-mentioned wireless remote controller, described relay module is magnetic latching relay.

Normally closed and the normally open of magnetic latching relay is to rely on the effect of permanent magnet, and the conversion of its on off state is that the pulse electrical signal by one fixed width has triggered.And when contact is in hold mode, often need not continue to energising, rely on the magnetic force of permanent magnet to be just able to maintain that the state of relay is constant.

Preferably, above-mentioned wireless remote controller, after described relay driving module receives described first signal, transmits the first electric current to the coil of described relay module so that described relay module turns on described controlled circuit；After described relay driving module receives described secondary signal, transmit the second electric current to the coil of described relay module so that described relay module turns off described controlled circuit.

Relay driving module can be L293 or L293D, L293 or L293D all can provide bi-directional drive electric current.Wherein, L293 can provide the driving electric current of up to 1A, and L293D can provide the driving electric current of up to 600mA.Specifically, the first electric current can be forward current, and the second electric current can be reverse current.

Preferably, above-mentioned wireless remote controller, described relay module includes first coil and the second coil, after described relay driving module receives described first signal, transmission current signal is to described first coil, so that described relay module turns on described controlled circuit；After described relay driving module receives described secondary signal, transmission current signal is to described second coil, so that described relay module turns off described controlled circuit.

First coil can be coupled with the conduction mechanism of relay, and the second coil can be coupled with the shut-down mechanism of relay.After relay driving module receives the first signal, transmission current signal is to first coil；After relay driving module receives secondary signal, transmission current signal is to the second coil.

Relay is specifically as follows magnetic latching relay, and magnetic latching relay can make permanent magnet keep normal open or normal off state according to the energising situation of coil.Concrete, the coil that magnetic latching relay can be different from two direction of windings is together wound around, and first coil can be according to be wound in magnetic latching relay clockwise, and the second coil can be according to counterclockwise be wound in magnetic latching relay.

Preferably, above-mentioned wireless remote controller, described magnetic latching relay is G5RL-U1A-E magnetic latching relay.

Specifically, magnetic latching relay can be G5RL-U1A-E magnetic latching relay, it is also possible to for the magnetic latching relay of other models, it is limitation of the present invention that the concrete model of magnetic latching relay should not be construed.

Preferably, above-mentioned wireless remote controller, described battery module is lithium thionyl chloride cell.

Concrete, battery module can be lithium thionyl chloride cell, and this battery has the advantages that volume energy density is high, still can have larger capacity in less space, and this battery has the advantage that self discharge is low, consumption electric energy is few.

Preferably, above-mentioned wireless remote controller, described battery module also includes that solaode, described solaode are connected with described wireless receiving module, decoder module, relay driving module respectively.

Existing battery module can be played an effect expanded by solaode, uses solaode both to provide electric energy supplementary, can save again the energy.

Preferably, above-mentioned wireless remote controller, described wireless receiving module is in running order in the first predetermined amount of time, described wireless receiving module in the second predetermined amount of time in a dormant state, the duty of described wireless receiving module is alternately present with resting state, and the signal length of described Continuity signal or cut-off signals is more than described second predetermined amount of time.

Wireless receiving module specifically may be at work-dormancy-work-dormancy period circulation pattern, is so more beneficial for saving the power consumption of this control circuit.Wherein, in order to avoid Continuity signal or cut-off signals pass over when wireless receiving module dormancy, the signal length of Continuity signal or cut-off signals can be made more than the second predetermined amount of time, i.e. corresponding more than resting state time period.

Preferably, above-mentioned wireless remote controller, described decoder module is SC2272 chip or PT2272 chip.

Certainly, decoder module can also select other chip, and it is limitation of the present invention that the particular type of chip should not be construed.

The wireless remote controller that the embodiment of the present invention provides is that wireless receiving module, decoder module, relay driving module are powered by battery module, and remote control module transmission Continuity signal or cut-off signals are to wireless receiving module.Wireless receiving module receives Continuity signal or cut-off signals, and Continuity signal or cut-off signals are sent to decoder module, decoder module sends the first signal to relay driving module when receiving Continuity signal, when receiving cut-off signals, sends secondary signal to relay driving module.Relay driving module drives relay module on or off controlled circuit according to the first signal received or secondary signal.The wireless remote controller that the embodiment of the present invention provides, compared with existing wireless remote controller, can improve existing wireless remote controller and still can produce more power consumption when standby and the problem in life-span of light fixture is easily lost due to light fixture phosphere.

Accompanying drawing explanation

For the clearer explanation embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structured flowchart of the wireless remote controller that the embodiment of the present invention provides；

Fig. 2 is the structured flowchart of the remote control module that the embodiment of the present invention provides；

Fig. 3 is a kind of magnetic latching relay structural representation in the on-state that the embodiment of the present invention provides；

Fig. 4 is a kind of magnetic latching relay structural representation in the off case that the embodiment of the present invention provides；

Fig. 5 is the another kind of magnetic latching relay structural representation in the on-state that the embodiment of the present invention provides；

Fig. 6 is the another kind of magnetic latching relay structural representation in the off case that the embodiment of the present invention provides；

Fig. 7 is the structured flowchart that the touch switch that the embodiment of the present invention provides controls device；

Fig. 8 is the another kind of structured flowchart that the touch switch that the embodiment of the present invention provides controls device.

Reference is as follows:

Wireless remote controller 100；Battery module 110；Wireless receiving module 120；Decoder module 130；Relay driving module 140；Relay module 150；Controlled light fixture 160；

Remote control module 210；Magnetic latching relay 310；Touch switch 410.

Detailed description of the invention

Below in conjunction with accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Detailed description to the embodiments of the invention provided in the accompanying drawings is not intended to limit the scope of claimed invention below, but is merely representative of the selected embodiment of the present invention.Based on embodiments of the invention, the every other embodiment that those skilled in the art are obtained on the premise of not making creative work, broadly fall into the scope of protection of the invention.

Embodiment

Refer to the wireless remote controller 100 that Fig. 1, Fig. 1 show that the embodiment of the present invention provides, this device includes battery module 110, wireless receiving module 120, decoder module 130, relay driving module 140 and relay module 150.Battery module 110 electrically connects with wireless receiving module 120, decoder module 130, relay driving module 140 respectively；Wireless receiving module 120 is connected with decoder module 130, decoder module 130 is connected with relay driving module 140 by first line A and the second circuit B, relay driving module 140 is connected with relay module 150, and relay module 150 is used on or off controlled circuit to light or turn off controlled light fixture 160.

Battery module 110 is specifically as follows lithium thionyl chloride cell, and lithium thionyl chloride cell has the advantages that volume energy density is high, still can have larger capacity in less space, and this battery has the advantage that self discharge is low, consumption electric energy is few.

The acceptance that wireless receiving module 120 is specifically as follows RF433M, RF433M is highly sensitive, and transmitting distance is up to 350 meters；Having relay function, optional middle rank node is transmitted, and can effectively expand transmission range；Support transparent transmission mode and address transmission means, point-to-point, point-to-multipoint, the cordless communication network such as multi-multipoint can be formed.

Decoder module 130 is specifically as follows SC2272 or PT2272, can be connected with relay driving module 140 by first line A and the second circuit B.

Relay driving module 140 can be L293 or L293D, L293 or L293D all can provide bi-directional drive electric current.Wherein, L293 can provide the driving electric current of up to 1A, and L293D can provide the driving electric current of up to 600mA.

Relay module 150 can be magnetic latching relay 310, and the normally closed and normally open of magnetic latching relay 310 is to rely on the effect of permanent magnet, and the conversion of its on off state is that the pulse electrical signal by one fixed width has triggered.And when contact is in hold mode, often need not continue to energising, rely on the magnetic force of permanent magnet to be just able to maintain that the state of relay is constant.

The operation principle of this wireless remote controller 100 is: remote control module 210 refers to Fig. 2, and when switching SW1 and connecting, remote control module 210 sends Continuity signal to wireless receiving module 120；When switching SW2 and connecting, remote control module 210 sends cut-off signals to wireless receiving module 120.

Certainly, remote control module 210 can also only one of which SW1 switch, and by sending Continuity signal time next time, sends shutdown signal, circulate successively when again pressing.Corresponding, wireless receiving module 120 can receive the actuating signal that remote control module 210 sends, and when receiving for the first time, exports Continuity signal；When again receiving, export cut-off signals, circulate successively.

Wireless receiving module 120 specifically may be at work-dormancy-work-dormancy period circulation pattern.In order to avoid having Continuity signal or cut-off signals to pass over when wireless receiving module 120 dormancy, and causing wireless receiving module 120 not receive, the signal length of Continuity signal or cut-off signals can be more than the duration of dormancy.

Wireless receiving module 120 receives Continuity signal or cut-off signals, and Continuity signal or cut-off signals pass to decoder module 130, decoder module 130 can store pre-set yard address and the data pre-set are set.After decoder module 130 receives signal, the reception code address that can signal packet be contained compares with arranging a yard address, and when detecting that reception code address mate with arranging a yard address, and when data are also consistent, the data output end of correspondence has output.

Such as, mate when the reception code address that Continuity signal comprises arranges a yard address with first arranged in yard address, and when the data in Continuity signal and the first Data Matching in the data pre-set, the pin that decoder module 130 is connected with first line A can export high level, and the pin being connected with the second circuit B does not export.Mate when the reception code address that cut-off signals comprises arranges a yard address with second arranged in yard address, and when the data in cut-off signals and the second Data Matching in the data pre-set, the pin that decoder module 130 is connected with first line A does not export, the pin output high level that decoder module 130 is connected with the second circuit B.

Relay module 150 is specifically as follows magnetic latching relay 310.Details refer to Fig. 3, first coil J1 and the second coil J2 rotating around the both sides being formed on magnetic latching relay 310.Wherein, first coil J1 can be clockwise about being formed on the left side of magnetic latching relay 310, and the second coil J2 can be wound in the right side of magnetic latching relay 310 counterclockwise.

First coil J1 and the second coil J2 all can be connected with relay driving module 140.Specifically, when when relay driving module 140 receives first line A output high level, the second circuit B does not export (the i.e. second circuit B is equivalent to low level), relay driving module 140 can send current signal to first coil J1.The no current in the second coil J2 if there being electric current in first coil J1, then the S end of permanent magnet upper end the most as shown in Figure 3 is tilted to the right, and the N end of permanent magnet lower end the most as shown in Figure 3 is tilted to the left.

(i.e. first line A is equivalent to low level) is not exported and time the second circuit B exports high level, relay driving module 140 can send current signal to the second coil J2 when relay driving module 140 receives first line A.If there being electric current in the second coil J2, in first coil J1 during no current, then the S end of permanent magnet upper end the most as shown in Figure 4 is tilted to the left, and the N end of permanent magnet lower end the most as shown in Figure 4 is tilted to the right.

Specifically, can only have a coil, first coil J1 the most as shown in Figure 5, relay driving module 140 can be L293 or L293D, L293 or L293D all can provide bi-directional drive electric current.When relay driving module 140 receives first line A output high level, the second circuit B does not export (the i.e. second circuit B is equivalent to low level), relay driving module 140 can send the first electric current to first coil J1, details refer to Fig. 5, the S end of permanent magnet upper end the most as shown in Figure 5 is tilted to the right, and the N end of permanent magnet lower end the most as shown in Figure 5 is tilted to the left.

Do not export (i.e. first line A is equivalent to low level) when relay driving module 140 receives first line A and time the second circuit B exports high level, relay driving module 140 can send the second electric current to first coil J1, details refer to Fig. 6, the S end of permanent magnet upper end the most as shown in Figure 6 is tilted to the left, and the N end of permanent magnet lower end the most as shown in Figure 6 is tilted to the right.Wherein, the first electric current can be defined as forward current, and the second electric current can be defined as reverse current.

When the S end of permanent magnet as shown in Figure 3 and Figure 5 is tilted to the right, when the N end of permanent magnet is tilted to the left, relay turns on controlled circuit thus lights controlled light fixture 160.When the S end of permanent magnet as shown in Figure 4 and Figure 6 is tilted to the left, when the N end of permanent magnet is tilted to the right, relay turns off controlled circuit thus extinguishes controlled light fixture 160.

Specifically, owing to this device is independent of controlled circuit, so controlled circuit can be 220V mains circuit, it is also possible to should not be construed for the particular type of other low-voltage circuits, i.e. controlled circuit is limitation of the present invention.

Specifically, this device is except starting by the way of wireless remote control, it is also possible to started by touch switch 410, specifically the wireless receiving module 120 shown in Fig. 1 can more be become the touch switch 410 shown in Fig. 7, and other elements are same as described above.Being appreciated that other the mode starting this device should not be construed is limitation of the present invention.When occurring as product, whole device can be started by remote control module 210 and wireless receiving module 120；Whole device can also be started by touch switch 410.

Details refer to Fig. 8, touch switch 410 can be directly connected to decoder module 130, and when tapping touch switch 410 for the first time, touch switch 410 sends Continuity signal to decoder module 130, when tapping touch switch 410 again, touch switch 410 sends cut-off signals to decoder module 130.And operation that decoder module 130 is carried out after receiving Continuity signal or cut-off signals is identical with operation mentioned above, does not repeats at this.

The wireless remote controller 100 that the present invention provides is powered for wireless receiving module 120, decoder module 130, relay driving module 140 by battery module 110, and remote control module 210 sends Continuity signal or cut-off signals to wireless receiving module 120.Wireless receiving module 120 receives Continuity signal or cut-off signals, and Continuity signal or cut-off signals are sent to decoder module 130, decoder module 130 sends the first signal to relay driving module 140 when receiving Continuity signal, when receiving cut-off signals, send secondary signal to relay driving module 140.Relay driving module 140 drives relay module 150 on or off controlled circuit according to the first signal received or secondary signal.The wireless remote controller that the embodiment of the present invention provides, compared with existing wireless remote controller, can improve existing wireless remote controller and still can produce more power consumption when standby and the problem in life-span of light fixture is easily lost due to light fixture phosphere.

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearer, above in conjunction with the accompanying drawing in the embodiment of the present invention, carry out clearly and completely describing to the technical scheme in the embodiment of the present invention, obviously, described embodiment is a part of embodiment of the present invention rather than whole embodiments.Generally can with various different configurations arrange and design with the assembly of the embodiment of the present invention that illustrate described in accompanying drawing herein.

Therefore, the detailed description of the above embodiments of the invention to providing in the accompanying drawings is not intended to limit the scope of claimed invention, but is merely representative of the selected embodiment of the present invention.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

It should also be noted that similar label and letter represent similar terms in following accompanying drawing, therefore, the most a certain Xiang Yi accompanying drawing is defined, then need not it be defined further and explains in accompanying drawing subsequently.

In describing the invention, it should be noted that, the orientation of instruction or the term of position relationship are based on orientation shown in the drawings or position relationship, or this invention product orientation usually put or position relationship when using, it is for only for ease of the description present invention and simplifies description, rather than instruction or hint indication method or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.

In describing the invention, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " is arranged ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

Claims (10)

1. a wireless remote controller, for light fixture is carried out controlled in wireless, it is characterized in that, including battery module, remote control module, wireless receiving module, decoder module, relay driving module and relay module, described battery module respectively with described wireless receiving module, decoder module, relay driving module is connected, described remote control module interacts with described wireless receiving module, described decoder module electrically connects with described wireless receiving module and relay driving module respectively, described relay driving module also electrically connects with described relay module, described relay module electrically connects with controlled circuit,

Described remote control module is used for sending Continuity signal or cut-off signals to described wireless receiving module；

Described wireless receiving module is used for receiving described Continuity signal or cut-off signals, and sends described Continuity signal or cut-off signals to described decoder module；

Described decoder module, for when receiving Continuity signal, sends the first signal to described relay driving module；When receiving cut-off signals, send secondary signal to described relay driving module；

Described relay driving module, for when receiving described first signal, drives described relay module to turn on described controlled circuit；When receiving described secondary signal, described relay module is driven to turn off described controlled circuit.

Wireless remote controller the most according to claim 1, it is characterized in that, described decoder module is connected with described relay driving module by first line and the second circuit, and described first signal is described first line output high level and described second circuit output low level；Described secondary signal is described first line output low level and described second circuit output high level.

Wireless remote controller the most according to claim 2, it is characterised in that described relay module is magnetic latching relay.

Wireless remote controller the most according to claim 3, it is characterised in that after described relay driving module receives described first signal, transmits the first electric current to the coil of described relay module so that described relay module turns on described controlled circuit；

After described relay driving module receives described secondary signal, transmit the second electric current to the coil of described relay module so that described relay module turns off described controlled circuit.

Wireless remote controller the most according to claim 3, it is characterized in that, described relay module includes first coil and the second coil, after described relay driving module receives described first signal, transmission current signal is to described first coil, so that described relay module turns on described controlled circuit；

After described relay driving module receives described secondary signal, transmission current signal is to described second coil, so that described relay module turns off described controlled circuit.

Wireless remote controller the most according to claim 3, it is characterised in that described magnetic latching relay is G5RL-U1A-E magnetic latching relay.

Wireless remote controller the most according to claim 1, it is characterized in that, described wireless receiving module is in running order in the first predetermined amount of time, described wireless receiving module in the second predetermined amount of time in a dormant state, the duty of described wireless receiving module is alternately present with resting state, and the signal length of described Continuity signal or cut-off signals is more than described second predetermined amount of time.

Wireless remote controller the most according to claim 1, it is characterised in that described battery module also includes that solaode, described solaode are connected with described wireless receiving module, decoder module, relay driving module respectively.

Wireless remote controller the most according to claim 1, it is characterised in that described battery module is lithium thionyl chloride cell or lithium-manganese cell.

Wireless remote controller the most according to claim 1, it is characterised in that described decoder module is SC2272 chip or PT2272 chip.